SE464316B - PROCEDURE AND DEVICE FOR SUPPLY OF CONCRETE IN A DRILL TILE DURING CONCRETE ROLLING OF MOUNTAINS - Google Patents

Description

464 316. the hole. Since the feed hose is pulled outwards synchronized, '> \ with the feed of concrete, the result in such a case is that the hole is filled incompletely as the concrete mass intended for the hole penetrates into crushing damage and cracks. On the other hand, it is uncertain whether the concrete mass is even enough to partially fill the crack. Due to this, the concreting of a rock bolt can become incomplete. CH patent specification 615 245 discloses a method for feeding concrete into a borehole. This method is based on the idea that the concrete fed into the hole pushes the feed hose outwards into the hole as the concrete fills it. Carrying out this method, however, presupposes that a flexible, porous hose, which tightly encloses the tip of the feed hose and into which the concrete is emptied, is inserted into the borehole together with the feed hose. By means of this procedure, the cracks and crush damage are not even partially filled with concrete.

In FI patent application 832 124, it has been proposed to utilize the filling pressure of the concrete in the borehole to force the feed pipe out of the hole by means of a drive device, depending on the concrete filling pressure prevailing in the respective case. In this way, it is ensured that not only the borehole but also the cracks and crushing damage that get in the way are filled with concrete. When the bolt lengths become long, e.g. over 4 m, the weight of the feed pipe filled with concrete mass and the friction between the pipe and the hole and the diameter difference between the pipe and the hole cause the feed pipe to no longer function as a concrete pushing piston. In this case, the extraction speed of the feed pipe must be calculated as suitable relative to the production of the pump, which entails uncertainties.

The present invention intends to provide a method which avoids the above-mentioned disadvantages and ensures that the borehole is filled with concrete even when there are crushing cracks and cracks in the rock. This object is achieved with a method according to the invention, which method is characterized in that in the supply hose a concrete portion is pumped towards a stretched distance of the hose, which is larger than the amount of concrete which fills an entire hole with concrete on said distance of the supply hose.

The invention is based on the idea that a surplus is pumped into the borehole in a controlled manner, e.g. 20% concrete, compared to the amount of concrete needed to fill an entire hole. If there are cracks in the rock, the extra concrete penetrates into these. Knowing the rock's fragmentation, the excess concrete can be selected according to the rock quality to ensure filling of the borehole.

The excess concrete penetrates into the cracks and fills them only in the vicinity of the drilled hole, which is generally sufficient to attach a bolt to the hole.

The pumping of concrete can be controlled on the basis of the distance by which the feed hose is pulled out or on the basis of the extraction speed so that feeding of the excess concrete into the borehole takes place forcibly driven on the basis of the extraction movement of the feed hose.

When drilling a hole in rock, it is possible to measure the depth of the borehole during drilling so that at what distance the drill bit is calculated in each case from the mouth of the borehole. When the drill bit penetrates into a larger gap in the rock, the driller observes a crack or cavity due to the movement of the drilling machine. By taking a note of the depth reading over the noted cavities along the borehole, the rock quality is known.

By measuring the travel distance of the concrete feed hose, it is possible to stop the tip of the feed hose at the desired location in the borehole. When inserting 464 316 of the supply hose into the hole, concrete can be pumped in at the cavities before the actual filling of the hole. When pulling out the feed hose from the hole, it is possible to stop the tip of the feed hose at the cavities and fill them only by pumping in concrete. Smaller cracks in the rock, which the drill may not have noted during drilling, are automatically filled with the concrete's portioning excess.

The present invention also relates to a concrete feed device for applying the method, which device comprises a feed hose which can be inserted into the borehole for feeding concrete into the hole, a primary pump for pumping concrete into the feed hose and a displacement device for inserting the feed hose into the hole. the hole and for pulling it out of the hole. The device is characterized in that it comprises a piston-type portioning pump, which is connected to the primary pump and the feed hose for receiving a concrete portion from the primary pump and for pumping it into the feed hose, and - that the drive device of the portioning pump is connected to a metering device. extraction for controlling the drive device of the portioning pump on the basis of the extraction of the feed hose or vice versa.

In this device, the primary pump fills a piston-type secondary pump acting as a portioning apparatus, and only when the portioning pump is filled with certainty does it perform a pumping stroke, which pushes concrete into the hole. The stroke of the portioning pump is proportional to the distance that the feed hose is pulled out per one concrete portion. Thanks to the proportioning pump, it is known with certainty how large a portion of concrete is in any case pumped into a hole. Due to leakage and pumping losses, conventional pumps do not always provide sufficiently reliable facts about the actual amount of concrete pumped.

The stroke of the portioning pump can be proportioned to the extraction movement of the hose with either an electro-hydraulic or hydraulic follow-up control. By sensing the extraction speed of the feed hose, the stroke speed of the control pump can be controlled.

The invention will be described in more detail below with reference to the accompanying drawing, in which Figure 1 schematically shows the operating principle of a concrete feeding device suitable for applying the method, and Figure 2 shows in larger format in axial section a feeding hose in the borehole.

Figure 1 of the drawing shows a feed hose 1 for a concrete feeding device, which is supported by a boom system and a feed beam arranged supported by a transport chassis (not shown). As stated e.g. in the casting bolt device described in the applicant's FI patent application 832 124.

The feed hose extends through the displacement machinery 2, by means of which the hose can be displaced axially. The displacement machinery is driven by a drive device 3, e.g. a hydraulic motor.

For pumping concrete, the device contains a primary pump 4, which may be of any pump type, but which is preferably formed by a single or double-acting piston pump. The drive device 5 of the pump is preferably a hydraulic cylinder. The inlet side of the pump is connected by means of a line 6 to a vessel 8, which feeds concrete mass via a non-return valve 7.

The concrete pumping device further comprises a single-acting purge pump 9 of piston type, the inlet side of which is connected by means of a line 10 via a non-return valve 11 to the outlet side of the primary pump. The drive device 12 of the portioning pump is preferably a hydraulic cylinder. The outlet side of the portioning pump is connected to the supply hose 1, as described by means of a broken line 13.

At the path of movement of the feed hose, a measuring device 14 has been arranged, which registers the axial movements of the feed hose. The meter device is connected to control the function of the drive device of the portioning pump, as shown by means of a uniform line 15.

The control can be e.g. such that for a certain speed of the measuring roller of the measuring device, the pumping stroke of the portioning pump moves a certain distance. The intention is to proportion the movement of the feed hose and the pumping of the portioning pump relative to each other so that the certain axial distance of movement of the feed hose corresponds to a certain amount of concrete pumped by the portioning pump. The control between the meter device and the portioning pump can take place by electro-hydraulic or hydraulic follow-up.

The portioning pump drive device 12 is for its part connected in control contact with the primary pump drive device 5, as shown by a dash 16, so that the primary pump is started when the portioning pump has completed the concrete pumping stroke and causes a return movement in the portioning pump piston and the portioning pump. When the portioning pump has performed the return movement, the control stops the primary pump. The control between said measuring device and portioning pump causes the pumping stroke of the portioning pump to be started when the feed hose begins to move outwards in the borehole.

The device works as follows.

The primary pump fills the portioning pump so that it contains a certain amount of concrete. When the feed hose is inserted by means of the displacement machinery into a hole 18 drilled in the rock 17 and the displacement machinery begins to pull the feed hose outwards into the hole, the metering device for the feed hose rolling roller system responds to this extraction movement and provides a start-up impulse to the portioning pump drive. The portioning pump here performs a stroke proportioned relative to the extraction movement of the hose so that concrete penetrates into the hose and the hole from the pump at the same rate as the hose moves outwards into the hole.

In accordance with the invention, the stroke of the portioning pump, i.e. the concrete portion pumped into the feed hose is proportioned relative to the extraction movement of the feed hose so that the pump pushes into the hole an excess of concrete compared to the amount which would theoretically be sufficient to fill the borehole, if it were complete, i.e. that it would not show cracks and fissures. This surplus can be e.g. 20% and it is chosen larger or smaller depending on the rock quality in each case. A rock with relatively many cracks may require a larger surplus than a mountain that has relatively few cracks. During pumping, the excess concrete penetrates into these cracks and crevices.

In connection with long holes, which are to be bolted, it is possible that the portioning pump must be filled several times and during such filling the displacement machinery of the supply hose is stopped.

When filling a borehole with concrete, it is possible to stop the movement of the feed hose at pre-determined cavities and pump concrete into the cavity with a portioning pump while the control between the meter device and the drive device is disconnected. The same filling of cavities can also be performed when inserting the feed hose into the hole.

When pumping concrete by means of a primary pump, air can enter the pump. To remove the air, one or more relatively small holes 19 have been made in the supply hose at a distance L from the tip of the hose 19. When pumping concrete mass, it flows slowly out of a small hole while the main current, however, flows out from the end of the supply hose. When an air bubble reaches the hole, it is easily removed under pressure through a small hole.

The dimension L depends on the length of the holes to be drilled and on the adjustable excess concrete.

In an entire borehole, the excess concrete must not exceed dimension L when the borehole has been filled. The holes in the hose must be outside the entire length of the borehole outside the fed concrete column, so that the air can be removed into an open space. The drawings and the accompanying description are for the sole purpose of illustrating the spirit of the invention. In detail, the method and the device according to the invention may vary within the scope of the claims. Instead of the distance or speed of the pumping stroke being controlled in accordance with the length or speed of extraction of the hose, it is possible to proceed in the opposite direction, ie. control the extraction distance or speed of the hose in accordance with the distance or corresponding speed of the pumping stroke. Ä

Claims (8)

10 15 20 25 30 35 464 316 9 Patent claims: 1. A method of feeding concrete into a borehole during concrete bolting of rock, according to which method - a feed hose (1) is inserted into a hole (18), - an excess of concrete is pumped through the feed hose into the hole to fill cracks in the rock and - the supply hose is displaced outwards in the hole synchronized with the pumping of concrete, characterized in that during the pulling of the hose outwards in the hole a concrete portion which is larger than the concrete hose is pumped continuously into the supply hose (1). quantity, which fills an entire hole with concrete on the said distance of the feed hose. 2. A method according to claim 1, characterized in that the concrete portion is chosen larger the more fragmented the bore (17) of the borehole (18) is. 3. A method according to claim 2, characterized in that the concrete portion is pumped in relation to the extraction movement of the feed hose (1). 4. A method according to claim 3, characterized in that the distance of the pumping stroke of the concrete pump (9) is controlled at the base by the extraction distance of the feed hose (1) or vice versa. 5. A method according to claim 3, characterized in that the speed of the pumping stroke of the concrete pump (9) is controlled on the basis of the extraction speed of the feed hose (1) or vice versa. Method according to one of Claims 1 to 5, characterized in that when the feed hose (1) is pulled out of the borehole (18), the pulling out of the end of the hose is interrupted at cracks, cavities and the like noted during drilling of the hole and the pumping of concrete into the feed hose is continued. Device for feeding concrete into a borehole 464 316 10 15 20 I0 for casting rock, which device comprises - a feeding device (1), which can be inserted into a borehole (18) for feeding concrete into the hole, - a primary pump (4) and a piston-type portioning pump (1), which is connected to the primary pump (4) and the feed hose for receiving a concrete portion from the primary pump and for pumping it into the feed hose and - a displacement device (2) for inserting the feed hose into the hole and for pulling it out of the same. characterized in that the drive device (12) of the portioning pump is connected to a measuring device (14) which senses the extraction of the supply hose for controlling the drive device of the portioning pump on the basis of the extraction of the supply hose or vice versa. Device according to claim 7, characterized in that the portioning pump (9) is arranged to pump into the feed hose (1) a concrete portion corresponding to one stroke per a certain extended distance of the feed hose, which concrete portion is larger than the amount of concrete needed to fill an entire hole with concrete along the said distance of the feed hose.